Ureche, VladBurmako, EugeneOdersky, MartinLate Data Layout: Unifying Data Representation TransformationsProceedings of the 2014 ACM SIGPLAN International Conference on Object Oriented Programming Systems Languages and ApplicationsProceedings of the 2014 ACM SIGPLAN International Conference on Object Oriented Programming Systems Languages and ApplicationsProceedings of the 2014 ACM SIGPLAN International Conference on Object Oriented Programming Systems Languages and ApplicationsProceedings of the 2014 ACM SIGPLAN International Conference on Object Oriented Programming Systems Languages and Applications397-4164910Data RepresentationObject-orientedAnnotated TypesType SystemsLocal Type Inference20142014Values need to be represented differently when interacting with certain language features. For example, an integer has to take an object-based representation when interacting with erased generics, although, for performance reasons, the stack-based value representation is better. To abstract over these implementation details, some programming languages choose to expose a unified high-level concept (the integer) and let the compiler choose its exact representation and insert coercions where necessary. This pattern appears in multiple language features such as value classes, specialization and multi-stage programming: they all expose a unified concept which they later refine into multiple representations. Yet, the underlying compiler implementations typically entangle the core mechanism with assumptions about the alternative representations and their interaction with other language features. In this paper we present the Late Data Layout mechanism, a simple but versatile type-driven generalization that subsumes and improves the state-of-the-art representation transformations. In doing so, we make two key observations: (1) annotated types conveniently capture the semantics of using multiple representations and (2) local type inference can be used to consistently and optimally introduce coercions. We validated our approach by implementing three language features as Scala compiler extensions: value classes, specialization (using the miniboxing representation) and a simplified multi-stage programming mechanism.ACM0397-416Proceedings of the 2014 ACM SIGPLAN International Conference on Object Oriented Programming Systems Languages and ApplicationsConference Papers10.1145/2660193.2660197